A kind of drilling machine for indoor decoration based on compressor automatic speed regulation
Art
The invention belongs to drilling machine technical field, more particularly to a kind of indoor decoration is used for based on compressor automatic speed regulation
Drilling machine.
Background technology
Drilling machine used in current existing indoor decoration, due to not effective motor radiating mechanism, so drilling
Machine is accomplished by carry out natural cooling of stopping in use for some time, and the time so cooled down is very long, so as to reduce
Operating efficiency during decoration, and waste the substantial amounts of time, while existing drilling machine runs into harder metope in drilling,
Can not automatic speed regulation, if staff is without experience, can not be punched on request on hard metope, so being accomplished by design one
Plant the drilling machine for indoor decoration for the speed governing that cools automatically based on compressor.
A kind of drilling machine for indoor decoration based on compressor automatic speed regulation of present invention design solves as above problem.
The content of the invention
To solve drawbacks described above of the prior art, the present invention disclose it is a kind of based on compressor automatic speed regulation be used for it is indoor
The drilling machine of decoration, it is realized using following technical scheme.
A kind of drilling machine for indoor decoration based on compressor automatic speed regulation, it is characterised in that:It includes speed cone
Mechanism, compressor, condenser, evaporator, fixing device, wherein speed cone mechanism, compressor, condenser, evaporator are respectively mounted
In fixing device.
Above-mentioned fixing device includes handle, shell, heat emission hole, air admission hole, through hole, is wherein provided with perhaps on outer casing back inwall
Many heat emission holes;Many air admission holes are provided with case nose face;Through hole, and through-bore axis are provided with the end face for driving stomata on shell into
Overlapped with housing axis;Two handles are symmetrically mounted on shell periphery, and close to heat emission hole.
Above-mentioned speed cone mechanism includes power transmission shaft, spacing ring, motor, drill bit, circular casing, drive shaft, conical shell, cone
Shape plate, the first spur gear, the first connecting plate, the second straight-tooth wheel shaft, the second spur gear, the second connecting plate, the 3rd spur gear, the 3rd
Straight-tooth wheel shaft, the 3rd connecting plate, the 4th spur gear, the 4th straight-tooth wheel shaft, the first ring gear, the second ring gear, the 3rd ring gear,
T-shaped ring, retractor device, the first cavity, centre bore, the first supporting plate, linear bearing, the 3rd supporting plate, wherein three first
Fagging is circumferentially uniform to be arranged on outer casing inner wall;Motor is arranged on three the first supporting plate end faces;Spacing ring is installed
On shell inner headed face;Linear bearing is arranged in shell, and is coordinated with spacing ring;Three circumferentially uniform peaces of the 3rd supporting plate
On linear bearing inner headed face;Centre bore is opened on circular casing end face;Circular casing is matched somebody with somebody by periphery with three the 3rd supporting plates
Close and be arranged in three the 3rd supporting plates;There is the first cavity in conical shell;First is sequentially installed with the inwall of first cavity
Ring gear, the second ring gear, the 3rd ring gear;Conical shell one end is arranged on circular casing end face, and the axis and ring of conical shell
The axis of shape shell is overlapped;Power transmission shaft one end is arranged on conical shell end face, and is overlapped with drive shaft axis with conical shell axis;Bore
Head is arranged on power transmission shaft one end;Drive shaft one end is arranged on motor shaft, and the other end passes through centre bore;On first spur gear end face
It is provided with the first T-shaped annular groove;The end face that first spur gear opens the first T-shaped annular groove is arranged on drive shaft end face;T-shaped ring is by with
The cooperation of one T-shaped annular groove is arranged on the first spur gear;The cooperation that conical plate passes through taper surface thereon and the first cavity inner wall
In conical shell;4th straight-tooth wheel shaft one end is arranged on conical plate end face;4th spur gear is arranged on the 4th spur gear
On axle, the 4th spur gear coordinates with the 3rd ring gear in conical shell, and coordinates with the first spur gear;3rd connecting plate is arranged on
On 4th straight-tooth wheel axle end surface;3rd straight-tooth wheel shaft one end is arranged on the 3rd connecting plate side upper end;3rd spur gear is arranged on
On 3rd straight-tooth wheel shaft, the 3rd spur gear coordinates with the second ring gear in conical shell, and coordinates with the first spur gear;Second connects
Fishplate bar is arranged on the 3rd straight-tooth wheel axle end surface;Second straight-tooth wheel shaft is arranged on the second connecting plate side upper end;Second spur gear
On the second straight-tooth wheel shaft, the second spur gear coordinates with the first ring gear in conical shell, and coordinates with the first spur gear;
First connecting plate upper side is arranged on the second straight-tooth wheel shaft;Retractor device one end is arranged on T-shaped ring end face, other end peace
On the first connecting plate side.
Above-mentioned retractor device includes expansion link, telescopic, the first guide groove, the first guide block, second spring, wherein in telescopic
Symmetrical the second guide groove for being provided with two insertions on wall;Two the first guide blocks are symmetrically mounted on expansion link periphery;Expansion link leads to
The cooperation for crossing the first guide block installed thereon and the first guide groove is arranged in telescopic;Second spring is nested in expansion link periphery
On, second spring one end is arranged on telescopic end face, and the other end is arranged on the first guide block.
Above-mentioned condenser includes condensation structure, fan, and wherein condensation structure is arranged on outer casing back inwall;Fan is installed
On motor shaft, fan is located on front side of condensation structure.
Above-mentioned evaporator includes Steaming structure, thermal insulation layer, and wherein Steaming structure is arranged on motor casing periphery, evaporation knot
Structure is provided with thermal insulation layer back to motor side.
Above-mentioned compressor includes the second supporting plate, the 6th guide groove, the 5th guide block, spring supporting block, the 3rd T-slot, hollow
Axle, the first T-slot, the first T-shaped block, sliver, the first liquid refrigerant chamber, the second liquid refrigerant chamber, the first cam, the second cam,
3rd cam, the second guide block, the 3rd spring, the 4th spring, work shape block, the 5th spring, the 3rd plunger, the second T-slot, the first post
Plug, interstitial hole, annular groove, the second guide groove, the first square groove, the second cavity, the 3rd guide block, the 6th spring, compressor second housing, arc
Shape block, the 3rd guide groove, the 4th guide block, the 4th guide groove, the second plunger, groove, the 3rd vestibule, hollow axis hole, the 5th guide groove, centre
Groove, strip grooves, the 3rd T-shaped block, the shell of compressor first, pipe connection, the first working medium passage, the second working medium passage, the 3rd
Working medium passage, the 4th working medium passage, the 5th working medium passage, the 6th working medium passage, wherein three the second supporting plates are circumferentially uniform
On shell inner headed face;Pipe connection is arranged on three second by the cooperation of periphery and three the second supporting plates
On fagging;Hollow shaft is nested in outside drive shaft, and on the inner headed face of pipe connection;The first working medium is provided with hollow shaft
Passage, the second working medium passage, the 3rd working medium passage, the 4th working medium passage, the 5th working medium passage, the 6th working medium passage;Compressor
First enclosure has is provided with interstitial hole on the second cavity, compressor the first shell end face;It is symmetrical on second cavity inner headed face
It is provided with two the second guide grooves;The first square groove is provided with the inner headed face of second cavity, and the first square groove is surrounded with two the second guide grooves
The housing axis of compressor first are mutually 90 degree of distributions;The second T-slot is provided with the end face of first square groove;Opened on first square groove side
There is the 3rd T-slot;Annular groove is provided with the inwall of the first shell of compressor one end;The shell of compressor first by interstitial hole with it is hollow
Axle periphery, which coordinates, to be arranged in hollow shaft;There is the 3rd cavity on compressor second housing;3rd cavity one end is provided with hollow
Axis hole;Groove is provided with the inner headed face of 3rd cavity, and groove and the first square groove coordinate;The 5th guide groove is provided with groove end face;
Spring supporting block is arranged on groove end face, and is coordinated with the 5th guide groove;Two the 3rd guide blocks are symmetrically mounted on compressor second
On shell periphery;Compressor second housing is arranged on the shell of compressor first by the cooperation of the 3rd guide block and the second guide groove
It is interior;Hollow axis hole on compressor second housing coordinates with hollow shaft periphery;6th spring is located in the second guide groove;6th bullet
Spring one end is arranged on the second guide groove end face, and the other end is arranged on the 3rd guide block end face;Open and do not pass through on the end face of first cam
Logical groove;Non-through groove side is symmetrically provided with two the 3rd guide grooves on first cam;It is cylindrical that first cam is arranged on hollow shaft
On face;3rd cam is arranged on hollow shaft periphery;Two the 4th guide blocks are symmetrically mounted on the second flank of cam;Second is convex
Wheel is arranged in the 3rd cam face, and the 4th guide block installed thereon and the 3rd guide groove coordinate;It is convex that arc block is arranged on first
Take turns on periphery;Arc block coordinates with annular groove;Two slivers are symmetrically mounted on the second plunger side;First T-shaped block is arranged on
On second plunger end face;Second plunger is arranged on compressor the by the cooperation of the first T-shaped block for installing thereon and the 3rd T-slot
On one shell;Second plunger and hollow shaft periphery, the first cam, the second cam engagement;5th spring one end is arranged on the first T
On shape block end face, the other end is arranged on the 3rd T-slot end face;First plunger body has medial launder;Medial launder side Shang pair
Title is provided with two strip grooves;First plunger is provided with the groove of T-shaped on the end face away from medial launder;First plunger passes through sliver and strip
The cooperation of groove is arranged on the second plunger, and the second plunger and hollow shaft periphery, the first cam, the second cam engagement;Work shape
Block is arranged on the shell of compressor first by the cooperation with the second T-slot;4th spring one end is arranged on the first plunger end face
On, the other end is arranged on work shape block end face;It is provided with 3rd plunger end face on the 3rd T-shaped block, the 3rd plunger other end
Second guide block is installed;3rd plunger is coordinated by the T-slot opened in the 3rd T-shaped block and the first plunger is arranged on the first plunger
On, and the second guide block on the 3rd plunger and the 5th guide groove cooperation on compressor second housing;3rd spring one end is arranged on
On 5th guide groove end face, the other end is arranged on the second guide block end face;3rd plunger is matched somebody with somebody with hollow shaft periphery, the 3rd projection
Close;First cam, the second cam, the 3rd cam, the first plunger, the second plunger, the 3rd plunger, the shell of compressor first, compression
Machine second housing is collectively forming the first liquid refrigerant chamber and the second liquid refrigerant chamber;Pass on the hollow shaft periphery of hollow axis hole
The 6th guide groove is provided with, first connecting plate one end is provided with the 5th guide block;6th guide groove and the 5th guide block coordinate.
Above-mentioned pipe connection is crossed flexible pipe and is connected with Steaming structure;Steaming structure is connected with condensation structure by flexible pipe;It is cold
Concretio is connected by flexible pipe with pipe connection.
As the further improvement of this technology, above-mentioned first spur gear is installed on the driving shaft by key.
As the further improvement of this technology, above-mentioned drill bit is arranged on power transmission shaft by key.
As the further improvement of this technology, above-mentioned 3rd spur gear is arranged on the 3rd straight-tooth wheel shaft by bearing.
As the further improvement of this technology, above-mentioned 4th spur gear is arranged on the 4th straight-tooth wheel shaft by bearing.
As the further improvement of this technology, liquid refrigerant case is installed in above-mentioned pipe connection.
Relative to traditional drilling machine technology, a kind of present invention speed governing that cooled automatically based on compressor is used for indoor decoration
Drilling machine, it has automatic reduction temperature, automatic speed regulation, reduction noise, the function of continuous firing;Speed cone in the present invention
Mechanism has the function of regulation bit speed;Compressor has the function being compressed to liquid refrigerant in evaporator;Evaporate utensil
There is the function of keeping motor temperature to maintain certain value;The effect of condenser is that the gaseous working medium for flowing through evaporator is changed into liquid
State.Liquid refrigerant is transported in compressor again;The effect of fixing device is fixed speed cone mechanism, compressor, condenser, steaming
Send out device;Pipe connection effect is connection Steaming structure and compressor, the high-pressure liquid working medium after compression can be transported into steaming
Send out in structure.
The effect of fixing device is fixed speed cone mechanism, compressor, condenser, evaporator in the present invention;Shell end face
On to be provided with the effects of many heat emission holes be to facilitate air to flow through, be easy to radiating;The effect that many air admission holes are provided with shell is just
Enter in air;The effect that two handles are symmetrically mounted on shell periphery is easy for people to drilling machine control.
Speed cone mechanism has the function of regulation bit speed in the present invention;Three the first supporting plates are circumferentially uniform to be installed
Effect on outer casing inner wall is fixed drive motor;Three the 3rd supporting plates are circumferentially uniform to be arranged on linear bearing inner headed face
Effect be stationary annular shell;The purpose with the first cavity is to accommodate the first spur gear, the second spur gear, the in conical shell
Three spur gears, the 4th spur gear, the second straight-tooth wheel shaft, the 3rd straight-tooth wheel shaft, the 4th straight-tooth wheel shaft, the second connecting plate, the 3rd connect
Fishplate bar;It is to work as motor shaft that the first ring gear, the second ring gear, the effect of the 3rd ring gear are provided with the inwall of first cavity
Motion, can drive the first spur gear to move, and the first spur gear will drive the motion of the second spur gear, and the second spur gear will drive first
Ring gear is moved, and the first ring gear will drive conical shell motion, and conical shell will drive power transmission shaft motion;Power transmission shaft will be transported with drill bit
It is dynamic;The effect of drill bit is to carry out drilling processing to metope;The purpose of design conical shell is, when drill bit can not run into harder metope
When, drill bit will be unable to continue drilling forward, and now people applies a power forward to drilling machine, by anti-work of the metope to drill bit
Firmly so that drill bit is moved to shell;The drill bit of motion will drive power transmission shaft motion;Power transmission shaft will drive conical shell motion;
In the presence of linear bearing, circular casing will also be moved with conical shell;The conical shell of motion will drive and be arranged in conical shell
Conical plate is moved;The first ring gear, the second ring gear, the 3rd ring gear installed simultaneously in conical shell will be moved together;Taper
Plate will drive the 4th straight-tooth wheel shaft axially movable;4th straight-tooth wheel shaft will drive the 4th spur gear mounted thereto to move;
3rd connecting plate is connected with the 4th straight-tooth wheel shaft;3rd straight-tooth wheel shaft one end is connected with the 3rd connecting plate, and the other end and second connects
Fishplate bar is connected;Second straight-tooth wheel shaft one end is connected with the second connecting plate, and the other end is connected with the first connecting plate;4th straight-tooth wheel shaft
Motion will drive the 3rd connecting plate;3rd connecting plate will drive the motion of the 3rd straight-tooth wheel shaft;3rd straight-tooth wheel shaft will drive
Three spur gears are moved;3rd straight-tooth wheel shaft will drive the motion of the second connecting plate;Second connecting plate will drive the second straight-tooth wheel shaft fortune
It is dynamic;Second straight-tooth wheel shaft will drive the motion of the first connecting plate;The 3rd spur gear now will be engaged with the first spur gear, due to
Two internal tooth loop diameters are less than the first ring gear, so conical shell drives drill bit to accelerate rotation;So that drill bit has more
Fast rotating speed and the drilling ability to hard objects;, still can not drilling metope when the first spur gear is engaged with the 3rd spur gear
When, under manpower effect, drill bit continues to move to shell;So that the first spur gear is engaged with the 4th spur gear;So that cone
Shape shell, power transmission shaft, drill bit speed it is fast, improving the drill bit of speed will continue to process to metope;So as to reach the harder metope of brill
Purpose;Retractor device one end is arranged on T-shaped ring end face, and it is to work as cone that the other end, which is arranged on effect on the first connecting plate side,
The motion of shape shell drives the motion of the first connecting plate, and the first connecting plate will drive expansion link motion, and the first guide block on expansion link is by edge
First guide groove movement, while serving the effect of stabilized driving axle;The mating reaction of first connecting plate and hollow shaft is, limitation the
One connecting plate rotates with conical shell;The active force when effect of second spring is to first one return of guide block;Spacing ring
Effect is the motion of straight limit bearing, so as to reach the purpose of limitation circular casing motion.
The effect of condenser is that the gaseous working medium that evaporator comes is cooled in the present invention, and it is liquid to make working medium liquefaction
Working medium enters in compressor;The effect that fan is arranged on motor shaft is that the heat in condensation structure is blown out into drilling machine.
Evaporator in the present invention cools to motor;The effect of thermal insulation layer is to maintain evaporimeter cold air not by air band
Walk.
The effect of compressor is driving liquid refrigerant flowing in the present invention, while providing motive power for kind of refrigeration cycle;Three
The circumferentially uniform effect on shell inner headed face of second supporting plate is fixed pipe connection;Hollow shaft is nested in driving
Effect outside axle on the inner headed face of pipe connection is to fix the first cam, the second cam, the 3rd cam;In hollow shaft
It is that liquid refrigerant is flowed into the first liquid refrigerant to be provided with the first working medium passage, the second working medium passage, the effect of the 3rd working medium passage
Chamber;It is that liquid refrigerant is discharged into evaporation that the 4th working medium passage, the 5th working medium passage, the effect of the 6th working medium passage are opened in hollow shaft
In structure;When circular casing is moved, the motion of the shell of compressor first will be driven, the shell of compressor first of motion will cause the
The space increase of one liquid refrigerant intracavitary, the space of the second liquid refrigerant reduces, and the space of reduction causes liquid refrigerant to be discharged to
Pipe connection;The conical shell of opposite shell axially movable, will drive circular casing motion, and the circular casing of motion, which will drive, to be compressed
The shell of machine first is moved;First cam is connected by arc block with the shell of compressor first;The shell of compressor first is moved band
Dynamic arc block motion, arc block will drive the motion of the first cam, and the first cam is moved in the case where the second guide groove and the 3rd guide block coordinate;
Second plunger is connected by the first T-shaped block with the shell of compressor first;Second plunger is connected with the first plunger by sliver;Motion
The shell of compressor first drive the motion of the first T-shaped block, the first T-shaped block will drive the second plunger motion, leading on the second plunger
Bar will be moved along the strip grooves on the first plunger;The first liquid refrigerant chamber and the space of the second liquid refrigerant chamber now will become
Greatly;The space for becoming big can accommodate more liquid refrigerants;More liquid refrigerant will be to the more preferable cooling of motor;Rotation
The circular casing turned will drive the motion of compressor first shell, and the shell of compressor first of motion is in the presence of the 3rd guide block by band
Dynamic compressor second housing motion;The shell of compressor first of motion will drive the first plunger, second with compressor second housing
Plunger, the 3rd plunger are moved together;The first cam and the second cam now can press the first plunger and the second plunger so that first
Plunger is moved with the second plunger along the first square groove;3rd cam can press the 3rd plunger, and the 3rd plunger can be moved along groove;Motion
3rd plunger can cause the 3rd T-shaped block thereon to be moved along the 3rd T-slot;Second guide block is along the 5th guide groove movement;6th spring
In the second guide groove;6th spring one end is arranged on the second guide groove end face, and the other end is arranged on the 3rd guide block end face
Active force when effect is to the 3rd one return of guide block;5th spring one end is arranged on the first T-shaped block end face, other end peace
Effect on the 3rd T-slot end face is to give the first T-shaped block one restoring force;4th spring one end is arranged on the first plunger end
On face, the active force when effect that the other end is arranged on work shape block end face is to first one return of plunger.
The effect of liquid refrigerant case in the present invention is to offset influence of the compressor spatial variations to kind of refrigeration cycle.
In use, when drilling machine does not work, the first spring, second spring, the 3rd spring, the 4th spring, the 5th
Spring, the 6th spring are in free retracted position;First spur gear is engaged with the second spur gear;When the drill rig operates, it is electric
Arbor motion will drive drive shaft motion, and drive shaft will drive the motion of the first spur gear, and the first spur gear will drive the second straight-tooth
Wheel motion, the second spur gear will drive the first ring gear in conical shell to move, and the first ring gear will drive conical shell motion;Conical shell
Power transmission shaft motion will be driven, power transmission shaft will drive drill bit movement;Drill bit will drill to metope;The motion of conical shell will band
Dynamic circular casing motion, circular casing will drive the shell of compressor first to move, and the shell of compressor first will drive compressor the
Two shells are moved;The shell of compressor first will drive the first plunger and the second plunger motion;Compressor second housing will band
Dynamic 3rd plunger motion;The first plunger, the second plunger, the 3rd plunger of motion will cause the space of the second liquid refrigerant chamber to subtract
Small, the 3rd spring, the 4th spring, the 5th spring now are in compressive state;So that the liquid of the second liquid refrigerant intracavitary
State working medium is flowed in evaporator by pipe connection;Air can enter inside drilling machine from air admission hole in the process, from steaming
The thermal insulation layer upper end of hair device is flowed at position of fan, and condenser is cooled, can be by the liquid of vaporization in the presence of condenser
State working medium is condensed into liquid refrigerant, enters again through flexible pipe, pipe connection in compressor;Steaming structure can drop to motor
Temperature;When the metope run into is harder, harder metope can cause drill bit to be axially moved relative to shell along itself, the drill bit of motion
Power transmission shaft, conical shell, conical plate, the 4th straight-tooth wheel shaft, the 4th spur gear, the 3rd connecting plate, the 3rd spur gear will be driven successively
Axle, the 3rd spur gear, the second connecting plate, the second straight-tooth wheel shaft, the second spur gear, the first connecting plate, expansion link motion, now
Second expansion link is in compressive state;The first spur gear now will be engaged with the 3rd spur gear, in the 3rd spur gear and
In the presence of two ring gears so that conical shell speed increase, the conical shell of reduction will cause power transmission shaft to be improved with bit speed,
So as to there is bigger drilling ability to go to bore metope;When running into harder metope, drill bit continues to move relative to shell, makes
Obtain the first spur gear to engage with the 4th spur gear, in the presence of the 3rd ring gear, conical shell will obtain bigger speed so that
The drilling ability of power transmission shaft and drill bit is bigger, so as to reach the effect for boring harder metope;The metope hardness that drill bit is bored is higher, driving
The power that motor is consumed is bigger, and motor heating is more, in order to cool to motor, and conical shell opposite shell is axially transported
Dynamic circular casing to be driven to move, circular casing will drive the shell of compressor first to move, and the 6th spring now is in compression
State;The shell of compressor first will drive the first cam to move;The shell of compressor first will drive the second plunger motion;Fortune
Dynamic the first cam, the second plunger make it that the first liquid refrigerant chamber and the second liquid refrigerant cavity space anaplasia are big;Because drilling machine is low
The heat that produces is more during speed motion, and the space change of the first liquid refrigerant chamber and the second liquid refrigerant chamber will cause greatly it is more
Liquid refrigerant enters the first liquid refrigerant intracavitary, and more liquid refrigerant will take away more heats, more liquid refrigerants
Into evaporator evaporation, so as to preferably cool to motor;In the effect of second spring after the hard metope of brill terminates
Lower to cause expansion link motion, expansion link motion will drive the first connecting plate, the second straight-tooth wheel shaft, the second spur gear, the successively
Two connecting plates, the 3rd straight-tooth wheel shaft, the 3rd spur gear, the 3rd connecting plate, the 4th straight-tooth wheel shaft, the 4th spur gear, conical plate, cone
Shape shell, power transmission shaft, drill bit movement;The first spur gear now will be engaged in the second spur gear;The conical shell of motion will be with rotating ring
Shape shell is moved;Under the collective effect of circular casing and the 6th spring, the shell of compressor first, the first cam and will be driven successively
Two plunger motions;So that compressor return to original position.
Brief description of the drawings
Fig. 1 is global facility distribution schematic diagram.
Fig. 2 is global facility sectional view.
Fig. 3 is handle installation structure schematic diagram.
Fig. 4 is shell mechanism schematic diagram.
Fig. 5 is the first supporting plate mounting structure schematic diagram.
Fig. 6 is the second supporting plate mounting structure schematic diagram.
Fig. 7 is the 3rd supporting plate mounting structure schematic diagram.
Fig. 8 is mounting structure of condenser schematic diagram.
Fig. 9 is Steaming structure schematic diagram.
Figure 10 is thermal insulation layer mounting structure schematic diagram.
Figure 11 is compressor sectional view.
Figure 12 is the first gear ring, the second gear ring, the 3rd gear ring mounting structure schematic diagram.
Figure 13 is the first spur gear, the second spur gear, the 3rd spur gear mounting structure schematic diagram.
Figure 14 is circular casing mounting structure schematic diagram.
Figure 15 is expansion link mounting structure schematic diagram.
Figure 16 is retractor device structural representation.
Figure 17 is the first spur gear structural representation.
Figure 18 is compressor inner structure schematic diagram.
Figure 19 is compressor arrangement schematic diagram.
Figure 20 is the cut-away view of outer cover of compressor first.
Figure 21 is the 3rd guide block mounting structure schematic diagram.
Figure 22 is the first cam, the second cam, the 3rd cam mounting structure schematic diagram.
Figure 23 is the first cam structure schematic diagram.
Figure 24 is the second cam structure schematic diagram.
Figure 25 is compressor second housing structural representation.
Figure 26 is sliver mounting structure schematic diagram.
Figure 27 is the first piston structure schematic diagram.
Figure 28 is the 3rd T-shaped block mounting structure schematic diagram.
Figure 29 is drilling machine air cooling principle figure.
Figure 30 is hollow shaft structure schematic diagram.
Figure 31 is compressor the first shell mechanism schematic diagram.
Figure 32 is compressor, evaporator, condenser circulation theory figure.
Label title in figure:1st, handle;2nd, shell;3rd, power transmission shaft;4th, drill bit;5th, condenser;7th, speed cone mechanism;8th, drive
Dynamic motor;9th, compressor;10th, heat emission hole;13rd, air admission hole;14th, through hole;15th, the first supporting plate;16th, the second supporting plate;17th, it is empty
Heart axle;18th, linear bearing;19th, the 3rd supporting plate;20th, the shell of compressor first;22nd, condensation structure;23rd, fan;24th, evaporate
Device;25th, Steaming structure;27th, drive shaft;29th, thermal insulation layer;33rd, conical shell;34th, conical plate;35th, the first spur gear;36th, first
Connecting plate;37th, the second straight-tooth wheel shaft;38th, the second spur gear;39th, the second connecting plate;40th, the 3rd spur gear;41st, the 3rd straight-tooth
Wheel shaft;42nd, the 3rd connecting plate;43rd, the 4th spur gear;44th, the 4th straight-tooth wheel shaft;46th, T-shaped ring;47th, retractor device;48th, first
Cavity;49th, centre bore;50th, expansion link;51st, telescopic;52nd, the first guide groove;53rd, the first guide block;54th, second spring;56th,
One T-slot;57th, the first T-shaped block;58th, sliver;59th, the first cam;60th, the second cam;61st, the 3rd cam;62nd, the second guide block;
63rd, the 3rd spring;64th, the 4th spring;65th, work shape block;66th, the 5th spring;68th, the 3rd plunger;69th, the second T-slot;70th,
One plunger;71st, interstitial hole;72nd, annular groove;74th, the second guide groove;76th, the first square groove;78th, the second cavity;79th, the 3rd guide block;80、
6th spring;81st, compressor second housing;82nd, arc block;83rd, the 3rd guide groove;84th, the 4th guide block;86th, the 4th guide groove;87、
Second plunger;90th, groove;91st, the 3rd vestibule;92nd, hollow axis hole;93rd, the 5th guide groove;95th, medial launder;96th, strip grooves;97、
3rd T-shaped block;98th, the first gas outlet;99th, conical cavity;100th, the 3rd air inlet;103rd, fixing device;104th, circular casing;105、
Pipe connection;106th, the first working medium passage;107th, the second working medium passage;108th, the 3rd working medium passage;109th, the 4th working medium is led to
Road;110th, the 5th working medium passage;111st, the 6th working medium passage;112nd, the 3rd T-slot;113rd, spring supporting block;114th, the first liquid
State working fluid chamber;115th, the second liquid refrigerant chamber;116th, spacing ring;117th, the first ring gear;118th, the second ring gear;119th, the 3rd
Ring gear;120th, the 6th guide groove;121st, the 5th guide block.
Embodiment
As shown in Figure 1, 2, 3, it includes speed cone mechanism 7, compressor 9, condenser 5, evaporator 24, fixing device 103,
Wherein speed cone mechanism 7, compressor 9, condenser 5, evaporator 24 are installed in fixing device 103.
As shown in Figure 4,5, above-mentioned fixing device 103 includes handle 1, shell 2, heat emission hole 10, air admission hole 13, through hole 14,
Wherein many heat emission holes 10 are provided with the rear end inwall of shell 2;As shown in figure 4, being provided with many air admission holes 13 on the front end face of shell 2;
Through hole 14 is provided with the end face of stomata 13 as shown in figure 4, being driven on shell 2, and the axis of through hole 14 is overlapped with the axis of shell 2;Such as
Shown in Fig. 4, two handles 1 are symmetrically mounted on the periphery of shell 2, and close to heat emission hole 10.
As shown in Fig. 3,12, above-mentioned speed cone mechanism 7 includes power transmission shaft 3, spacing ring 116, motor 8, drill bit 4, ring
Shape shell 104, drive shaft 27, conical shell 33, conical plate 34, the first spur gear 35, the first connecting plate 36, the second straight-tooth wheel shaft 37,
Second spur gear 38, the second connecting plate 39, the 3rd spur gear 40, the 3rd straight-tooth wheel shaft 41, the 3rd connecting plate 42, the 4th spur gear
43rd, the 4th straight-tooth wheel shaft 44, the first ring gear 117, the second ring gear 118, the 3rd ring gear 119, T-shaped ring 46, retractor device
47th, the first cavity 48, centre bore 49, the first supporting plate 15, linear bearing 18, the 3rd supporting plate 19, as shown in figure 5, wherein three
Individual first supporting plate 15 is circumferentially uniform to be arranged on the inwall of shell 2;As shown in figure 5, motor 8 is arranged on three first
On the end face of fagging 15;As shown in Fig. 2 spacing ring 116 is arranged on the inner headed face of shell 2;Linear bearing 18 is arranged in shell 2,
And coordinate with spacing ring 116;As shown in fig. 7, three the 3rd supporting plates 19 are circumferentially uniform installed in the inner headed face of linear bearing 18
On;Centre bore 49 is opened on the end face of circular casing 104;As shown in fig. 7, circular casing 104 passes through periphery and three the 3rd supporting plates 19
Coordinate and be arranged in three the 3rd supporting plates 19;As shown in figure 14, there is the first cavity 48 in conical shell 33;As shown in figure 12,
The first ring gear 117, the second ring gear 118, the 3rd ring gear 119 are sequentially installed with the inwall of first cavity 48;Conical shell
33 one end are arranged on the end face of circular casing 104, and the axis of conical shell 33 is overlapped with the axis of circular casing 104;As shown in figure 8,
The one end of power transmission shaft 3 is arranged on the end face of conical shell 33, and is overlapped with the axis of power transmission shaft 3 with the axis of conical shell 33;As shown in fig. 6,
Drill bit 4 is arranged on the one end of power transmission shaft 3;The one end of drive shaft 27 is arranged on motor shaft, and the other end passes through centre bore 49;Such as Figure 17 institutes
Show, the groove of the first T-shaped ring 46 is provided with the end face of the first spur gear 35;The end face that first spur gear 35 opens the groove of the first T-shaped ring 46 is installed
On the end face of drive shaft 27;As shown in figure 12, T-shaped ring 46 is arranged on the first spur gear by the cooperation with the groove of the first T-shaped ring 46
On 35;As shown in Figure 12,13, conical plate 34 is arranged on conical shell by the cooperation of taper surface thereon and the inwall of the first cavity 48
In 33;As shown in Figure 12,13, the one end of the 4th straight-tooth wheel shaft 44 is arranged on the end face of conical plate 34;As shown in Figure 12,13, the 4th
Spur gear 43 is arranged on the 4th straight-tooth wheel shaft 44, and the 4th spur gear 43 coordinates with the 3rd ring gear 119 in conical shell 33, and
Coordinate with the first spur gear 35;As shown in Figure 12,13, the 3rd connecting plate 42 is arranged on the end face of the 4th straight-tooth wheel shaft 44;3rd
The one end of straight-tooth wheel shaft 41 is arranged on the side upper end of the 3rd connecting plate 42;As shown in Figure 12,13, the 3rd spur gear 40 is arranged on the 3rd
On straight-tooth wheel shaft 41, the 3rd spur gear 40 coordinates with the second ring gear 118 in conical shell 33, and matches somebody with somebody with the first spur gear 35
Close;As shown in Figure 12,13, the second connecting plate 39 is arranged on the end face of the 3rd straight-tooth wheel shaft 41;Second straight-tooth wheel shaft 37 is arranged on
The side upper end of second connecting plate 39;As shown in Figure 12,13, the second spur gear 38 is arranged on the second straight-tooth wheel shaft 37, and second is straight
Gear 38 coordinates with the first ring gear 117 in conical shell 33, and coordinates with the first spur gear 35;The upper end side of first connecting plate 36
Face is arranged on the second straight-tooth wheel shaft 37;As shown in figure 15, the one end of retractor device 47 is arranged on the end face of T-shaped ring 46, the other end
On the side of the first connecting plate 36.
As shown in figure 16, above-mentioned retractor device 47 include expansion link 50, telescopic 51, the first guide groove 52, the first guide block 53,
Symmetrical the second guide groove 74 for being provided with two insertions in second spring 54, the wherein inwall of telescopic 51;As shown in figure 16, two first
Guide block 53 is symmetrically mounted on the periphery of expansion link 50;As shown in figure 16, expansion link 50 passes through the first guide block 53 for installing thereon
Cooperation with the first guide groove 52 is arranged in telescopic 51;As shown in figure 16, second spring 54 is nested in the periphery of expansion link 50
On, the one end of second spring 54 is arranged on the end face of telescopic 51, and the other end is arranged on the first guide block 53.
As shown in figure 8, above-mentioned condenser 5 includes condensation structure 22, fan 23, wherein condensation structure 22 is arranged on shell 2
On the inwall of rear end;As shown in figure 8, fan 23 is arranged on motor shaft, fan 23 is located at the front side of condensation structure 22.
As shown in Fig. 9,10, above-mentioned evaporator 24 includes Steaming structure 25, thermal insulation layer 29, and wherein Steaming structure 25 is arranged on
On motor casing periphery, Steaming structure 25 is provided with thermal insulation layer 29 back to motor side.
As shown in Figure 11,18,19, above-mentioned compressor 9 include the second supporting plate 16, the 6th guide groove 120, the 5th guide block 121,
Spring supporting block 113, the 3rd T-slot 112, hollow shaft 17, the first T-slot 56, the first T-shaped block 57, sliver 58, the first liquid work
Matter chamber 114, the second liquid refrigerant chamber 115, the first cam 59, the second cam 60, the 3rd cam 61, the second guide block 62, the 3rd bullet
Spring 63, the 4th spring 64, work shape block 65, the 5th spring 66, the 3rd plunger 68, the second T-slot 69, the first plunger 70, interstitial hole
71st, annular groove 72, the second guide groove 74, the first square groove 76, the second cavity 78, the 3rd guide block 79, the 6th spring 80, outside compressor second
Shell 81, arc block 82, the 3rd guide groove 83, the 4th guide block 84, the 4th guide groove 86, the second plunger 87, groove 90, the 3rd vestibule 91,
Hollow axis hole 92, the 5th guide groove 93, medial launder 95, strip grooves 96, the 3rd T-shaped block 97, the first shell of compressor 20, pipe connection dress
Put the 105, first working medium passage 106, the second working medium passage 107, the 3rd working medium passage 108, the 4th working medium passage 109, the 5th work
Matter passage 110, the 6th working medium passage 111, as shown in fig. 6, wherein three the second supporting plates 16 are circumferentially uniform installed in shell 2
On inner headed face;As shown in fig. 6, pipe connection 105 is arranged on three by the cooperation of periphery and three the second supporting plates 16
In second supporting plate 16;As shown in figure 21, hollow shaft 17 is nested in outside drive shaft 27, and installed in the interior of pipe connection 105
On disc;As shown in figure 30, the first working medium passage 106, the second working medium passage 107, the 3rd working medium passage are provided with hollow shaft 17
108th, the 4th working medium passage 109, the 5th working medium passage 110, the 6th working medium passage 111;As shown in figure 20, the shell of compressor first
20 inside have is provided with interstitial hole 71 on the second cavity 78, the end face of the first shell of compressor 20;As shown in figure 20, the second cavity 78
Symmetrically two the second guide grooves 74 are provided with inner headed face;As shown in figure 20, the first square groove 76 is provided with the inner headed face of the second cavity 78,
And first square groove 76 and two the second guide grooves 74 be mutually 90 degree of distributions around the axis of the first shell of compressor 20;As shown in figure 20,
The second T-slot 69 is provided with the end face of first square groove 76;As shown in figure 31, it is provided with the 3rd T-slot on the side of the first square groove 76
112;As shown in figure 20, it is provided with annular groove 72 on the inwall of the one end of the first shell of compressor 20;As shown in figure 19, outside compressor first
Shell 20 is coordinated by interstitial hole 71 and the periphery of hollow shaft 17 to be arranged in hollow shaft 17;As shown in figure 25, outside compressor second
There is the 3rd cavity on shell 81;3rd cavity one end is provided with hollow axis hole 92;As shown in figure 25, opened on the inner headed face of the 3rd cavity
There is groove 90, and groove 90 coordinates with the first square groove 76;As shown in figure 25, it is provided with the 5th guide groove 93 on the end face of groove 90;Spring
Support block 113 is arranged on the end face of groove 90, and is coordinated with the 5th guide groove 93;As shown in figure 26, two the 3rd guide blocks 79 are symmetrical
On the periphery of compressor second housing 81;As shown in figure 21, compressor second housing 81 passes through the 3rd guide block 79 and
The cooperation of two guide grooves 74 is arranged in the first shell of compressor 20;Hollow axis hole 92 and hollow shaft on compressor second housing 81
17 peripheries coordinate;As shown in figure 21, the 6th spring 80 is located in the second guide groove 74;Led installed in second the one end of 6th spring 80
On the end face of groove 74, the other end is arranged on the end face of the 3rd guide block 79;As shown in figure 22, open non-through on the end face of the first cam 59
Groove;Non-through groove side is symmetrically provided with two the 3rd guide grooves 83 on first cam 59;As shown in Figure 22,23, the first cam
59 are arranged on the periphery of hollow shaft 17;3rd cam 61 is arranged on the periphery of hollow shaft 17;As shown in figure 24, two the 4th
Guide block 84 is symmetrically mounted on the side of the second cam 60;As shown in figure 22, the second cam 60 is arranged on the end face of the 3rd cam 61,
And the 4th guide block 84 installed thereon coordinates with the 3rd guide groove 83;As shown in figure 22, arc block 82 is arranged on outside the first cam 59
On disc;Arc block 82 coordinates with annular groove 72;As shown in figure 26, two slivers 58 are symmetrically mounted on the side of the second plunger 87;
As shown in figure 22, the first T-shaped block 57 is arranged on the end face of the second plunger 87;Second plunger 87 passes through the first T-shaped for installing thereon
The cooperation of the T-slot 112 of block 57 and the 3rd is arranged on the first shell of compressor 20;Second plunger 87 and the periphery of hollow shaft 17,
First cam 59, the second cam 60 coordinate;The one end of 5th spring 66 is arranged on the end face of the first T-shaped block 57, and the other end is arranged on
On the end face of 3rd T-slot 112;As shown in figure 27, the inside of the first plunger 70 has medial launder 95;As shown in figure 27, medial launder 95
Two strip grooves 96 are symmetrically provided with side;As shown in figure 28, it is provided with T-shaped on the first end face of the plunger 70 away from medial launder 95
Groove;First plunger 70 is arranged on the second plunger 87 by the cooperation of sliver 58 and strip grooves 96, and the second plunger 87 with it is hollow
The periphery of axle 17, the first cam 59, the second cam 60 coordinate;Work shape block 65 is arranged on pressure by the cooperation with the second T-slot 69
On the first shell of contracting machine 20;As shown in figure 19, the one end of the 4th spring 64 is arranged on the end face of the first plunger 70, and the other end is arranged on
On the end face of work shape block 65;It is provided with the end face of 3rd plunger 68 on the 3rd T-shaped block 97, the other end of the 3rd plunger 68 and is provided with
Two guide blocks 62;As shown in figure 28, the 3rd plunger 68 is coordinated by the T-slot opened in the 3rd T-shaped block 97 and the first plunger 70 and pacified
On the first plunger 70, and the second guide block 62 on the 3rd plunger 68 is matched somebody with somebody with the 5th guide groove 93 on compressor second housing 81
Close;The one end of 3rd spring 63 is arranged on the end face of the 5th guide groove 93, and the other end is arranged on the end face of the second guide block 62;3rd plunger
68 coordinate with the periphery of hollow shaft 17, the 3rd projection;As shown in figure 11, the first cam 59, the second cam 60, the 3rd cam 61,
First plunger 70, the second plunger 87, the 3rd plunger 68, the first shell of compressor 20, compressor second housing 81 are collectively forming
One liquid refrigerant chamber 114 and the second liquid refrigerant chamber 115;As shown in Figure 12,13, the hollow shaft 17 for passing hollow axis hole 92 is cylindrical
The 6th guide groove 120 is provided with face, the one end of the first connecting plate 36 is provided with the 5th guide block 121;6th guide groove 120 and the 5th guide block
121 coordinate.
It is connected as shown in Fig. 2 above-mentioned pipe connection 105 crosses flexible pipe with Steaming structure 25;Steaming structure 25 is tied with condensation
Structure 22 is connected by flexible pipe;Condensation structure 22 is connected by flexible pipe with pipe connection 105.
As shown in figure 12, above-mentioned first spur gear 35 is arranged in drive shaft 27 by key.
As shown in fig. 6, above-mentioned drill bit 4 is arranged on power transmission shaft 3 by key.
As shown in Figure 12,13, above-mentioned 3rd spur gear 40 is arranged on the 3rd straight-tooth wheel shaft 41 by bearing.
As shown in Figure 12,13, above-mentioned 4th spur gear 43 is arranged on the 4th straight-tooth wheel shaft 44 by bearing.
As shown in figure 8, being provided with liquid refrigerant case in above-mentioned pipe connection 105.
In summary:
A kind of drilling machine for indoor decoration for the speed governing that cooled automatically based on compressor 9 of the present invention, it has automatic reduction temperature
Degree, automatic speed regulation, reduction noise, the function of continuous firing;Speed cone mechanism 7 in the present invention has the regulation speed of drill bit 4
Function;Compressor 9 has the function being compressed to liquid refrigerant in evaporator 24;Evaporator 24, which has, keeps motor temperature to maintain
In the function of certain value;The effect of condenser 5 is that the gaseous working medium for flowing through evaporator 24 is changed into liquid.Again by liquid refrigerant
It is transported in compressor 9;The effect of fixing device 103 is fixed speed cone mechanism 7, compressor 9, condenser 5, evaporator 24;
The effect of pipe connection 105 is connection Steaming structure 25 and compressor 9, the high-pressure liquid working medium after compression can be transported into steaming
Send out in structure 25.
The effect of fixing device 103 is fixed speed cone mechanism 7, compressor 9, condenser 5, evaporator 24 in the present invention;
The effect that many heat emission holes 10 are provided with the end face of shell 2 is to facilitate air to flow through, and is easy to radiating;Many air inlets are provided with shell 2
The effect in hole 13 is easy for air entrance;The effect that two handles 1 are symmetrically mounted on the periphery of shell 2 is easy for people to drilling
Machine is controlled.
Speed cone mechanism 7 has the function of the regulation speed of drill bit 4 in the present invention;Three the first supporting plates 15 are circumferentially uniform
Effect on the inwall of shell 2 is fixed drive motor 8;Three the 3rd supporting plates 19 are circumferentially uniform installed in linear axis
The effect for holding 18 inner headed faces is stationary annular shell 2;The purpose with the first cavity 48 is to accommodate the first straight-tooth in conical shell 33
Take turns the 35, second spur gear 38, the 3rd spur gear 40, the 4th spur gear 43, the second straight-tooth wheel shaft 37, the 3rd straight-tooth wheel shaft 41, the
Four straight-tooth wheel shafts 44, the second connecting plate 39, the 3rd connecting plate 42;Be provided with the inwall of first cavity 48 first ring gear 117,
Second ring gear 118, the effect of the 3rd ring gear 119 are, when motor shaft motion, the first spur gear 35 to be driven to move, first
Spur gear 35 will drive the second spur gear 38 to move, and the second spur gear 38 will drive the first ring gear 117 to move, the first ring gear
117 will drive conical shell 33 to move, and conical shell 33 will drive power transmission shaft 3 to move;Power transmission shaft 3 will be moved with drill bit 4;Drill bit 4
Effect is to carry out drilling processing to metope;The purpose of design conical shell 33 is, when drill bit 4 can not run into harder metope, bores
First 4 will be unable to continue drilling forward, and now people applies a power forward, the reaction by metope to drill bit 4 to drilling machine
Power so that drill bit 4 is moved to shell 2;The drill bit 4 of motion will drive power transmission shaft 3 to move;Power transmission shaft 3 will drive conical shell 33 to transport
It is dynamic;In the presence of linear bearing 18, circular casing 104 will also be moved with conical shell 33;The conical shell 33 of motion, which will drive, pacifies
Conical plate 34 in conical shell 33 is moved;The first ring gear 117 for installing simultaneously in conical shell 33, the second ring gear 118,
3rd ring gear 119 will be moved together;Conical plate 34 will drive the 4th straight-tooth wheel shaft 44 axially movable;4th straight-tooth wheel shaft 44
The 4th spur gear 43 mounted thereto will be driven to move;3rd connecting plate 42 is connected with the 4th straight-tooth wheel shaft 44;3rd straight-tooth
The one end of wheel shaft 41 is connected with the 3rd connecting plate 42, and the other end is connected with the second connecting plate 39;One end of second straight-tooth wheel shaft 37 and the
Two connecting plates 39 are connected, and the other end is connected with the first connecting plate 36;The motion of 4th straight-tooth wheel shaft 44 will drive the 3rd connecting plate
42;3rd connecting plate 42 will drive the 3rd straight-tooth wheel shaft 41 to move;3rd straight-tooth wheel shaft 41 will drive the 3rd spur gear 40 to move;
3rd straight-tooth wheel shaft 41 will drive the second connecting plate 39 to move;Second connecting plate 39 will drive the second straight-tooth wheel shaft 37 to move;The
Two straight-tooth wheel shafts 37 will drive the first connecting plate 36 to move;The 3rd spur gear 40 now will be engaged with the first spur gear 35, by
It is less than the first ring gear 117 in the diameter of the second ring gear 118, so conical shell 33 drives drill bit 4 to accelerate rotation;So as to so that
Obtaining drill bit 4 has faster rotating speed and the drilling ability to hard objects;When the first spur gear 35 is engaged with the 3rd spur gear 40,
Still can not drilling metope when, manpower effect under, drill bit 4 to shell 2 continue move;So that the first spur gear 35 and
Four spur gears 43 are engaged;So that the speed of conical shell 33, power transmission shaft 3, drill bit 4 is fast, improve speed drill bit 4 will to metope after
Continuous processing;So as to reach the purpose for boring harder metope;The one end of retractor device 47 is arranged on the end face of T-shaped ring 46, and the other end is installed
Effect is on the side of the first connecting plate 36, and when the motion of conical shell 33 drives the first connecting plate 36 to move, the first connecting plate 36 will
Expansion link 50 is driven to move, the first guide block 53 on expansion link 50 will be moved along the first guide groove 52, while serving stabilized driving
The effect of axle 27;First connecting plate 36 and the mating reaction of hollow shaft 17 are that the first connecting plate 36 of limitation revolves with conical shell 33
Turn;The active force when effect of second spring 54 is to first 53 1 returns of guide block;The effect of spacing ring 116 is straight limit
The motion of bearing 18, so as to reach the purpose that limitation circular casing 104 is moved.
As shown in figure 32, the effect of condenser 5 is that the gaseous working medium that evaporator 24 comes is cooled in the present invention, is made
Working medium liquefaction enters in compressor 9 for liquid refrigerant;The effect that fan 23 is arranged on motor shaft is, by condensation structure 22
Heat blows out drilling machine, in cooling cyclic process, and liquid refrigerant is under the effect of compressor 9, into evaporator 24 to motor
Cooled down, after gaseous working medium takes away the heat of motor, into condenser 5, condenser 5 will carry out liquid to gaseous working medium
Liquid refrigerant is turned to, and next cooling is carried out in compressor 9 is transported to and is circulated.
Evaporator 24 in the present invention cools to motor;The effect of thermal insulation layer 29 be to maintain the cold air of evaporator 24 not by
Air is taken away.
The effect of compressor 9 is driving liquid refrigerant flowing in the present invention, while providing motive power for kind of refrigeration cycle;Three
The circumferentially uniform effect on the inner headed face of shell 2 of second supporting plate 16 is fixed pipe connection 105;Hollow shaft 17 is embedding
Be enclosed on the outer effect on the inner headed face of pipe connection 105 of drive shaft 27 be fix the first cam 59, the second cam 60,
3rd cam 61;The first working medium passage 106, the second working medium passage 107, the work of the 3rd working medium passage 108 are provided with hollow shaft 17
With being that liquid refrigerant is flowed into the first liquid refrigerant chamber 114;The 4th working medium passage 109, the 5th working medium passage are opened in hollow shaft 17
110th, the effect of the 6th working medium passage 111 is that liquid refrigerant is discharged in Steaming structure 25;When circular casing 104 is moved, by band
The first shell of dynamic compressor 20 is moved, and the first shell of compressor 20 of motion will cause the space in the first liquid refrigerant chamber 114
Increase, the space of the second liquid refrigerant reduces, and the space of reduction causes liquid refrigerant to be discharged to pipe connection 105;It is relatively outer
The conical shell 33 of shell 2 axially movable, will drive circular casing 104 to move, and the circular casing 104 of motion will be driven outside compressor first
Shell 20 is moved;First cam 59 is connected by arc block 82 with the first shell of compressor 20;The motion of the first shell of compressor 20 will
Arc block 82 is driven to move, arc block 82 will drive the first cam 59 to move, and the first cam 59 is led in the second guide groove 74 with the 3rd
Block 79 coordinates lower move;Second plunger 87 is connected by the first T-shaped block 57 with the first shell of compressor 20;Second plunger 87 and
One plunger 70 is connected by sliver 58;The first shell of compressor 20 of motion drives the first T-shaped block 57 to move, the first T-shaped block 57
The second plunger 87 will be driven to move, the sliver 58 on the second plunger 87 will be moved along the strip grooves 96 on the first plunger 70;Now
The first liquid refrigerant chamber 114 and the space of the second liquid refrigerant chamber 115 will become big;The space for becoming big can be accommodated more
Liquid refrigerant;More liquid refrigerant will preferably cool to motor 8;The circular casing 104 of rotation will drive compressor the
One shell 20 is moved, and the first shell of compressor 20 of motion will drive compressor second housing 81 in the presence of the 3rd guide block 79
Motion;The first shell of compressor 20 of motion will drive the first plunger 70, the second plunger the 87, the 3rd with compressor second housing 81
Plunger 68 is moved together;The first cam 59 and the second cam 60 now can press the first plunger 70 and the second plunger 87 so that the
One plunger 70 is moved with the second plunger 87 along the first square groove 76;3rd cam 61 can press the 3rd plunger 68, and the 3rd plunger 68 can edge
Groove 90 is moved;3rd plunger 68 of motion can cause the 3rd T-shaped block 97 thereon to be moved along the 3rd T-slot 112;Second guide block
62 move along the 5th guide groove 93;6th spring 80 is located in the second guide groove 74;The one end of 6th spring 80 is arranged on the second guide groove 74
On end face, the active force when effect that the other end is arranged on the end face of the 3rd guide block 79 is to the 3rd 79 1 returns of guide block;The
The one end of five spring 66 be arranged on the end face of the first T-shaped block 57 on, the other end be arranged on the end face of the 3rd T-slot 112 on effect be to
First restoring force of T-shaped block 57 1;The one end of 4th spring 64 is arranged on the end face of the first plunger 70, and the other end is arranged on work shape block
Active force when effect on 65 end faces is to first 70 1 returns of plunger.
The effect of liquid refrigerant case in the present invention is to offset influence of the spatial variations of compressor 9 to kind of refrigeration cycle.
Embodiment is, when drilling machine does not work, the first spring, second spring 54, the 3rd spring 63, the 4th spring
64th, the 5th spring 66, the 6th spring 80 are in free retracted position;First spur gear 35 is engaged with the second spur gear 38;When
When drilling machine works, motor shaft motion will drive drive shaft 27 to move, and drive shaft 27 will drive the first spur gear 35 to move, and first
Spur gear 35 will drive the second spur gear 38 to move, and the second spur gear 38 will drive the first ring gear 117 in conical shell 33 to move, the
One ring gear 117 will drive conical shell 33 to move;Conical shell 33 will drive power transmission shaft 3 to move, and power transmission shaft 3 will drive drill bit 4
Motion;Drill bit 4 will drill to metope;The motion of conical shell 33 will drive circular casing 104 to move, and circular casing 104 will band
The first shell of dynamic compressor 20 is moved, and the first shell of compressor 20 will drive compressor second housing 81 to move;Compressor
One shell 20 will drive the first plunger 70 and the second plunger 87 to move;Compressor second housing 81 will drive the 3rd plunger 68
Motion;The first plunger 70, the second plunger 87, the 3rd plunger 68 of motion will cause the space of the second liquid refrigerant chamber 115 to subtract
Small, the 3rd spring 63, the 4th spring 64, the 5th spring 66 now are in compressive state;So that the second liquid refrigerant chamber
Liquid refrigerant in 115 is flowed in evaporator 24 by pipe connection 105;As shown in figure 29, air can be from the process
Air admission hole 13 enters inside drilling machine, is flowed to from the upper end of thermal insulation layer 29 of evaporator 24 at the position of fan 23, condenser 5 is carried out
Cooling, liquid refrigerant can be condensed into the presence of condenser 5 by the liquid refrigerant of vaporization, filled again through flexible pipe, pipe connection
105 are put to enter in compressor 9;Steaming structure 25 can be to electric motor temperature reduction;When the metope run into is harder, harder metope can cause
Drill bit 4 is axially moved relative to shell 2 along itself, and the drill bit 4 of motion will drive power transmission shaft 3, conical shell 33, conical plate successively
34th, the 4th straight-tooth wheel shaft 44, the 4th spur gear 43, the 3rd connecting plate 42, the 3rd straight-tooth wheel shaft 41, the 3rd spur gear 40, second
Connecting plate 39, the second straight-tooth wheel shaft 37, the second spur gear 38, the first connecting plate 36, expansion link 50 are moved, and second now is flexible
Bar 50 is in compressive state;The first spur gear 35 now will be engaged with the 3rd spur gear 40, in the 3rd spur gear 40 and
In the presence of two ring gears 118 so that the speed of conical shell 33 increase, the conical shell 33 of reduction will cause power transmission shaft 3 and drill bit 4
Speed is improved, so as to there is bigger drilling ability to go to bore metope;When running into harder metope, drill bit 4 is relative to shell 2
Continue to move so that the first spur gear 35 is engaged with the 4th spur gear 43, in the presence of the 3rd ring gear 119, conical shell 33
Bigger speed will be obtained so that the drilling ability of power transmission shaft 3 and drill bit 4 is bigger, so as to reach the effect for boring harder metope;Bore
It is first 4 bore metope hardness it is higher, the power that motor 8 is consumed is bigger, motor 8 generate heat it is more, in order to driving electricity
Machine 8 cools, and the opposite shell 2 of conical shell 33, which is axially moved, will drive circular casing 104 to move, and circular casing 104 will drive compression
The first shell of machine 20 is moved, and the 6th spring 80 now is in compressive state;The first shell of compressor 20 will drive first convex
Wheel 59 is moved;The first shell of compressor 20 will drive the second plunger 87 to move;The first cam 59, the second plunger 87 of motion make
Obtain the first liquid refrigerant chamber 114 and the space of the second liquid refrigerant chamber 115 becomes big;The heat produced during due to drilling machine low-speed motion
It is more, and the change of the space of the first liquid refrigerant chamber 114 and the second liquid refrigerant chamber 115 will cause greatly more liquid refrigerants to enter
In first liquid refrigerant chamber 114, more liquid refrigerant will take away more heats, and more liquid refrigerants enter evaporator
24 evaporations, so as to preferably cool to motor;It will make in the presence of second spring 54 when boring after hard metope terminates
Obtain expansion link 50 to move, the motion of expansion link 50 will drive the first connecting plate 36, the second straight-tooth wheel shaft 37, the second spur gear successively
38th, the second connecting plate 39, the 3rd straight-tooth wheel shaft 41, the 3rd spur gear 40, the 3rd connecting plate 42, the 4th straight-tooth wheel shaft the 44, the 4th
Spur gear 43, conical plate 34, conical shell 33, power transmission shaft 3, drill bit 4 are moved;The first spur gear 35 now will be in the second spur gear
38 engagements;The conical shell 33 of motion will drive circular casing 104 to move;Under the collective effect of the spring 80 of circular casing 104 and the 6th,
Compressor the first shell 20, the first cam 59 will be driven to be moved with the second plunger 87 successively;So that compressor 9 return to original
The position come.